First of all, how did you come up w/ this question? you're pumping way too much hypochlorite for only 500gal/day. How many connections do you have? @500gal per day, according to EPA standards, you can't even serve a connection. each connection required about 0.6gpm and you got only about 0.347gpm. ____________________________________________________ if it was 500,000gal/day the dosage would be about 3.0mg/L
.36 lbs
No, it is not a solution.
It is a solution.
Yes, zero can and is the solution of many equations.
Depends on the concentration of the solution and what is in it.
Chlorine solution is a mixture of chlorine molecules (solute) and water (solvent)
Chlorine is a gas at room temperature and pressure, not a solution or colloid. It can be dissolved in water to form a solution known as chlorine water, which is used as a disinfectant.
Each should be 70
To find the amount of chlorine used, we need to know the molar mass of chlorine. We can use the molality to calculate the moles of chlorine in the solution. Finally, we can convert moles to grams using the molar mass of chlorine to find the grams of chlorine used.
Sodium hypochlorite solution typically contains around 5-6% available chlorine.
For disinfection are used sodium hypochlorite or chlorine; chlorine is a killer for microorganisms.
Chlorine is a chemical element (Cl) that is commonly found in its diatomic form as a gas (Cl2). It can also be dissolved in water to form a solution known as chlorine water, which is commonly used as a disinfectant.
Yes, chlorine dissolves easily in water, forming a solution known as chlorine water. This solution is commonly used for disinfection and water treatment purposes.
chlorine
As salt (a solute) has dissolved it has made a solution
When chlorine is mixed with potassium bromide solution, chlorine will displace bromine to form potassium chloride. Similarly, when chlorine is mixed with potassium iodide solution, chlorine will displace iodine to form potassium chloride. These reactions are examples of displacement reactions where a more reactive element displaces a less reactive element from its compound.
A chlorine test kit measures the concentration of free available chlorine in a sanitizing solution. This helps ensure that the solution is at the correct level for effective disinfection. The test results indicate whether the solution is within the recommended range for killing pathogens.